Steady-State Configuration and Tension Calculations of Marine Cables Under Complex Currents via Separated Particle Swarm Optimization

Under complex currents, the motion governing equations of marine cables are complex and nonlinear, and the calculations of cable configuration and tension become difficult compared with those under the uniform or simple currents. To obtain the numerical results, the usual Newton-Raphson iteration is...

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Veröffentlicht in:	China ocean engineering 2014-12, Vol.28 (6), p.815-828
1. Verfasser:	徐雪松
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Schlagworte:	Cables Coastal Sciences Engineering Fluid- and Aerodynamics Marine Marine & Freshwater Sciences Mathematical analysis Mathematical models Numerical and Computational Physics Ocean engineering Oceanography Offshore Engineering Optimization Simulation Stability Swarm intelligence 分离电缆张力粒子群优化粒子群算法船用电缆计算结果配置非线性方程
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description	Under complex currents, the motion governing equations of marine cables are complex and nonlinear, and the calculations of cable configuration and tension become difficult compared with those under the uniform or simple currents. To obtain the numerical results, the usual Newton-Raphson iteration is often adopted, but its stability depends on the initial guessed solution to the governing equations. To improve the stability of numerical calculation, this paper proposed separated the particle swarm optimization, in which the variables are separated into several groups, and the dimension of search space is reduced to facilitate the particle swarm optimization. Via the separated particle swarm optimization, these governing nonlinear equations can be solved successfully with any initial solution, and the process of numerical calculation is very stable. For the calculations of cable configuration and tension of marine cables under complex currents, the proposed separated swarm particle optimization is more effective than the other particle swarm optimizations.
doi_str_mv	10.1007/s13344-014-0063-y
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subjects	Cables Coastal Sciences Engineering Fluid- and Aerodynamics Marine Marine & Freshwater Sciences Mathematical analysis Mathematical models Numerical and Computational Physics Ocean engineering Oceanography Offshore Engineering Optimization Simulation Stability Swarm intelligence 分离电缆张力粒子群优化粒子群算法船用电缆计算结果配置非线性方程
title	Steady-State Configuration and Tension Calculations of Marine Cables Under Complex Currents via Separated Particle Swarm Optimization
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